Apparatus for printing and issuing tickets or checks of different denominations and for registering and totaling numbers and indicating the totals.



G. A. JULIUS. APPARATUS FOR PRINTING AND ISSUING TICKETS 0R CHECKS OF DIFFERENT DENOMINATIONS AND FOR REGISTERING AND TOTALING NUMBERS AND INDICATING THE TOTALS.

APPLICATION FILED AUG. 4, 1910. 1,082,957, Patented Dec. 30, 1913.

13 SHBETS-8HEET 1.

7227555 55. [27 L emar flit/r275 5 G. A. JULIUS. APPARATUS FOR PRINTING AND ISSUING TICKETS 0R CHECKS OF DIFFERENT DENOMINATIONS AND FOR REGISTERING AND TOTALING NUMBERS AND INDIGATING THE TOTALS. 1,082,957.

APPLICATION TILED AUG. 4, 1910.

Patented Dec. 30, 1913 13 8EEET8-SHEET 2.

I nV i A mu I G. A. JULIUS. APPARATUS FOR PRINTING AND ISSUING TICKETS OR CHECKS OF DIFFERENT DENOMINATIONS AND FOR REGISTERING AND TOTALING NUMBERS AND INDIGATING THE TOTALS.

APPLICATION FILED AUG. 4, 1910. 1,082,957. Patented Dec. 30, 1913.

13 SHEETS-SHEET 3.

G. A. JULIUS. APPARATUS FOR PRINTING AND ISSUING TICKETS OR CHECKS OF DIFFERENT DENOMINATIONS AND FOR REGISTERING A ND TOTALING NUMBERS AND INDICATING THE TOTALS. APPLIOA-TION FILED AUG. 4, 1910.

1,082,957. Patented Dec. 30, 1913.

13 SHEETS-SHEET 4.

G. A. JULIUS. APPARATUS FOR PRINTING AND ISSUING TICKETS OR CHECKS OF DIFFERENT DENOMINATIONS AND FOR REGISTERING AND TOTALING NUMBERS AND INDIOATING THE TOTALS.

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G. A. JULIUS. v APPARATUS FOR PRINTING AND ISSUING TICKETS OR CHECKS OF DIFFERENT DENOMINATIONS AND FOR REGISTERING AND TOTALING NUMBERS AND INDIGATING THE TOTALS.

v APPLICATION FILED AUG. 4, 1910.

1,082,957. Patented Dec. 30, 1913.

13 SHEETSSHEET 6.

F/aza 175755555. I7 UEHzJF fizzy-Hays G. A. JULIUS. APPARATUS FOR PRINTING AND ISSUING TICKETS 0R CHECKS OF DIFFERENT DENOMINATIONS AND FOR REGISTERING AND TOTALING NUMBERS AND INDIGATING THE TOTALS.

APPLICATION FILED AUG. 4, 1910. 1,082,957.

13 SHEETS-SHEET 7.

I I fzzzrenza r {film-HE r5 Patented Dec. 30, 1913.

G. A. JULIUS. APPARATUS FOR PRINTING AND ISSUING TICKETS 0R CHECKS OF DIFFERENT DENOMINATIONS AND FOR REGISTERING AND TOTALING NUMBERS AND INDIOATIN'G THE TOTALS.

APPLICATION FILED AUG. 4, 1910- 1,082,957. Patented Dec. 30, 1913.

13 SHEETS-SHEET B.

jazz-Hays G. A. JULIUS. APPARATUS FOR PRINTING AND ISSUING TICKETS 0R CHECKS OF DIFFERENT DENOMINATIONS AND FOR RBGISTERING AND TOTALING NUMBERS AND INDICATING THE TOTALS.

APPLICATION FILED AUG.4,1910.

1,082957. Patented Dec. 30, 1913.

13 SHEETS-SHEET 9.

[UL/E27 far- G. A. JULIUS. APPARATUS FOR PRINTING AND ISSUING TICKETS 0R CHECKS OF DIFFERENT DENOMINATION S AND FOR REGISTERING AND TOTALING NUMBERS AND INDICATING THE TOTALS.

APPLICATION TILED AUG. 4. 1910. 1,082,957. Patented Dec. 30, 1913.

13 SHEETSSHEET 10- 71 22755555 JHUEHZUI- @mw m. cru b E7 19%; W/JM 4 :F/zurrzsw G. A. JULIUS.

APPARATUS FOR PRINTING AND ISSUING TICKETS OR CHECKS OF DIFFERENT DENOMINATIONS AND FOR REGISTERING AND TOTALING NUMBERS AND INDICATING THE TOTALS.

APPLICATION FILED AUG. 4, 1910.

13 SHEETS-SHEET 11.

J22 MEL-"far- Patented Dec. 30, 1913.

G. A. JULIIL".

APPARATUS FOR PRINTING AND ISSUING TICKETS OR CHECKS OF DIFFERENT DENOMINATIONS AND FOR REGISTERING AKD TOTALING NUMBERS AND INDICATING THE TOTALS.

APPLICATION FILED AUG.4, 1910. 1,082,957. Patented Dec. 30, 1913.

13 SHEETS-SHEET 12.

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G. A. JULIUS. APPARATUS FOR PRINTING AND ISSUING TICKETS 0R CHECKS OF DIFFERENT DENOMINATIONS AND FOR REGISTERING AND TOTALING NUMBERS AND INDIGATING THE TOTALS. APPLICATION FILED AUG. 4, 1910- 1,082,957. 7 Patented Dec. 30, 1913.

13 SHEETS-SHEET 13.

74471555 137715 rzzaror checks of di UNITED STATES PATENT OFFICE.

GEORGE ALFRED JULIUS, 0F WOOLLA'HRA. NEAR SYDNEY, NEW SOUTH WALES,

' AUSTRALIA.

APPARATUS IOR PRINTING AND ISSUING TICKETS OR CHECKS OF DIFFERENT DENOMINATIONS AND FOR REGISTERING AND TOTALING NUMBERS AND- INDICATING THE TOTALS.

To all 'whom it may concern Be it known that I, GEORGE ALFRED J ULIUS, subject of the King of Great Britain and Ireland, residing at Ocean street, VVoollahra, near Sydney, in the State of New South Vales, Australia, have invented certain new and useful improvements in and relatin to apparatus for rinting and issuing tickets tierent denominations and for registering and totalin numbers and indicating the totals, of which the following is a specification. I

This invention consists in mechanical apparatus for printing and issuing tickets or checks of different denominations and for registering, totaling and indicating separately the number .of issues of the several denominations of such tickets or checks and the grand total of all issues thereof. The printing, numbering totaling, group totaling, grand totaling and indicating apparatus are severally constructed on the unit principle. The printing and issuing devices consist of separate units, any required number of which may be associated together in one case so that there may be issued from the one case tickets or checks of two or more different denominations. The computing and total indicating devices are. also constructed on the unit principle, that is to say. a computer for any particular group contains a unit member or element for introducing into such computer the total of issues from any'particular printing or issuing unit which is to be contained in the total to be ascertained by means of such computer. There may be any required number of issuing units and any required number of compu ting, registering and indicating units to. suit the circumstances of any particular case, i

and these several units together make up a complete machine or a section of a complete machine. The computing and indicating mechanism is adapted for the grouping together of the totals of any number of issuing elements whether such elements be contained in one issuing case or in two or more separate issuing cases. The apparatus provides for the reckoning and indicating of a separate total for the issues from each and every element in the printing and issuing mechanisms, for the total issues from every case of such elements, for the total issues Specification of Letters Patent.

Patented Dec. 30, 1913.

Application filed August 4, 1910. Serial No. 575,520.

from all the units in any group of such elements, whether such several units be contamed 1n the one case or in two or more separate cases, and for the grand total of all the I issues. Independently of the ticket printing and issuing mechanism, my said apparatus is adapted for the totaling of numbers in separate sets or groups and. for the indication of the totals of any number of such sets or groups. The printing and issuing mechanism may be used when required for issuing railroad and other tickets or certificates, and checks for payments and other purposes,

and registering and indicating all the totals of issues separately, grouped, or in the ag gregate, as before stated.

My invention includes also accessory parts and features in such apparatus for preventing and correcting errors due to mistakes or mismanagement by clerks, for facilitating the rapid resetting of the registerin and indicating devices at zero, and for-0t er purposes.

The printing and issuing mechanisms are illustrated in Figures 1 to 6 and in Figsp22 to 27 of the accompanying drawings. Figs.

7 to 21 of those drawings relate to the com-- puting and indicating mechanisms. In the latter mechanisms the counter and indicating devices are operated by the computer devices which latter each consists of a number ofelements separately rotatable and driven primarily by connections from the printing and issuing elements.

Fig. 1 is a diagrammatic view illustrating a convenient arrangement for the grouping of the printing and issuing mechanisms and the computing and indicating mechanisms. In this drawing is shown four printing and issuing cases set side by side, each of these fitted up for issuing tickets or checks of four different denominations. There are four group computers each consisting' of four elements, and four counterindicators for displaying the totals ascertained by the computers. These counters are connected mechanically to the four elements respectively of the grand total comcontaining two printing and issuing elements. Fig. 3 is a sectional elevation ofthe parts compnsmg one printing and issuing element, but showing also the mechanicalparts common to a complete case of such elements. This view is shown in the position in which the parts lie immediately after a ticket or check has been printed and issued, the ticket being shown standing in the delivery mouth in the act 'of being cut off.

Fig. 4- 1s a slmilar view showing the apparatus in the position in which the parts lie during the operation of printing the ticket or check. Fig. 5 a fragment elevation-on an enlarged scale showing the parts in the same position as they appear in Fig. 3. Fig. 5 is an enlarged side elevation of the cam which occupies the cut off mechanism. Fig. 6 is a fragment view of part of the paper feed barrel with a silent detent for preventing reverse movement. Fig. 7 a sectional elevation showing two elements of the group computer which is used for integrating the individual movements of each unit of a group of corresponding printing elements contained indifferent cases or sets, and showing also the mechanism for convey- ,ing the total of the-movements so obtained to a group indicator, and mechanism for resetting the computer. Fig. 8 is a perspective sectional elevation of a group computer of four elements and accessory parts shown also in Fig. 7; Fig. 9'is an end view of'one element of the group computer; Fig. 10 is an end view of a computer element next adjacent to the element shown in Fig. 9; in.

this view the parts more reversely in relation to the movements of the parts shown in Fig. 9. Fig. 11 detail perspective view on enlarged scale showing the pawl dog of one I of the group computer elements.

Figs. 12 and 13 outline fragment elevational View of the pawl and detent and the pin-an'd-star wheel and Geneva motion mechanism of the computer in idle and driving positions respectively. Fig. 14 perspective sectional elevational view of the drum counter-indicator used for exhibiting the group computer and aggregate computer totals. Figs. 15, 16 and 17 fragment detail and outline elevational views of thedecimal progression mechanism of the counter-indicator. Fig. 18 sectional elevation perspective View of the aggregate computer (four elements),

which is'used to integrate the group totals to obtain the grand total of all the move; ments of individual elements in the printing mechanism. Fig. 19 an end elevational view of one of the elements in. the aggregate computer. Fig. 20 fragment outline view of the star wheel portions of the Geneva motion parts by which the elements of the group computers are severally locked. Fig. 21 similar view illustrating the action of the pin Wheel step by step motion parts by which an element of the group computer is advanced one step for ever movement (one third rotation) of the eneva cam. Fig. 22 is an enlarged view of the tripping mechanism for throwing the operative parts of the elenient into motion by moving one of those parts by means of a press button. Fig. 23 is a separate view indicating the means for transmitting to the total register for each case the sum of the individual movements of the several separate printing elements in such case. Fig. 24 an enlarged fragment view of the mechanism for actuating and setting the printing block and the inking pad. Fig. 25 a perspective view of the printing block. Fig. 26 a perspective section through the printing table and its spring seat and replacing gear. Fig. 27 a fragment plan indicating the construction of the cut oil? knives and the means for reciprocating the same.

In Fig. 7 are shown several cases of printing elements marked respectively 1, 2, 3 and 4. v5 are the unit registers which exhibit through apertures in the case the total movements of each element respectively. The panels in which these apertures are cut bear lettering or marking to indicate respectively to which denomination of ticket they refer. These indicators are marked in lar e characters 1, 2, 3 and 4 in Fig. 1. 6 are t e press buttons for operating the triggers by which the printing elements are thrown into gear. 7 are the rope pull connections from the printin elements to the group computers 8. 9 are t e group counter-indicators, one of which is associated respectively with each-of the group computers 8. 10 and 11 represent fair lead chain and toothed gearing, the arrangement and connection of which is adapted tothe particular circumstances of each case, for conveying the rotations of the counters 9 respectively to the elements of the grand total computer 12 which is connected to the grand total counter-indicator 13. 14 is a housing or casing inclosing the computing counting and group and grand totals indicating mechanism.

As shown in Figs. 2, 3 and 4, the movements of the printing and issuing elements or units are conveyed each by a separate rope 7 to an element in the group computer in which the movements of such elements or units respectively are required to be accounted for. .These ropes are drawn by oscillating beams 249 at each operation of the printing unit; they are carried over fair lead sheaves 253 conveniently placed having regard to the location of the printing case in relation to the computers to which the printing elements are connected. 225 is 'a case inclosing any required number of print-- 1 ing and issuing units. This case carries at The case also carries arbors 248 journaled at its ends. These arbors support arms 247 which have a vertical oscillating movement about them. The outer ends of these arms 247 are connected to the connecting rods 245, both these part-s beingeyed on the ends of a continuous spindle 246 on which spindle the several oscillating beams 249, one for each unit, are mounted so as to be capable of oscillation about the said spindle 246.. The connecting rods 245 are moved by cranks 244 on the shaft 243. The arms 247 are continuously reciprocated as long as the shaft 243 isro-tated, whether or not one or more of the printing units in the case is in operative action. When they are working idle the several parts move as shown in the full and dotted lines respectively in Fig. 3. When a unit is tripped into operative action by pressing its button 6 they still oscillate vertically, but tip the oscillating beams 249 so as to draw the cord 7.-connected therewith as shown in Fig. 4.

For each printing unit a reel of stiff paper 220 is carried on a spindle 222 which is supported in brackets 223. A strip of paper 221 run off this reel is drawn between the casing plate 224 and the guide plate 233, (see Fig. 3). On the top of the reel there presses a roller 22S carried on an arm 226 pivoted at 227. The outer end of the arm 226 is pivo'tally connected at 230 to the.indicator rod 229 which works the slide indicator 231 running in a slot 232 in the casing. exhibiting to the operator the quantity of paper remaining on the reel 220.

'As shown in Fig. 3 the reel is full and the indicator 231 is at top position. The paper strip passes bet-ween the feed roller 2 35 and a jockey roller 236. The roller 236 is carried on the lower end of the beam 237, which beam is supported on the dead spindle 238 which may run from end to end of the case and carry all the several beams 237. The

upper end of the beam 237 is forked, or there may be two such beams one fitted to either side of the roller 236. These upper ends carry 'the trunnion pins 341 of the printing table 239, (see Figs. 5 and 26). This table is a metal stamping, which may be faced with rubber, fiber, or blanket in order to provide a resilient surface for the printing block 337 to act against. 342 is a pocket from which the trunnion pins 341 project. This pocket carries a spiral spring 347 in compression. The forward end of this spring acts in a cup 346 which presses against the pocket piece 345 which is fitted to .the rear side of the printing table 239 and carries the head 344 of the guide rod 343. This guide rod works freely through a hole bored in the case lug 349 which forms a guide for it and it is fitted on its rear end with a nut 348 (Fig. 5) by adjusting which the limit of forward movement of the table 239 can be controlled (see Figs. 3 and 5). The spring 347 acts to push the upper ends of the levers or beams 237 outward, thereby pressing the roller 236 against the paper strips and nipping the same tightly between the said roller and the feed barrel 235. The spring 347 therefore performs the double to receive the impression of the printing block and at the same time maintaining a biting pressure on the paper strip 221 to prevent movement of the same during the printing and cutting 01f operations. Immediately above the printing table 239 is the knife rest 359, shown in Fig. 5. A throat bar 360 traverses the case in front of the knife rest 359, an aperture being left between those two parts to allow the paper strip to be passed up through same. There is a gap between the throat bar 360 and the lip 242 of the outwardly curved part 241 of the casing. Through this gap 361 the knives 240 pass after cutting through the paper strip. In Fig. 5 the strip of paper 357 which has been already printed and forms theticket or card issued by the apparatus, is shown just cut 03 by the knife and standing upward in front of the curved plate241. The curvature of that plate has the effect of pitching forward the card or ticket thus produced on to the cover tray 350. This 'cover tray secretes the knife mechanism but may be readily lifted for the purpose of ad just-ing the same. It may be made in separate sections for every unit or in one piece for a complete case. The knives 240 are beveled faced; one is provided for each unit, its width being ample to cut the ticket strip. These several knives are screwed toa reciprocating bar 374, as shown in Fig. 27. At

connecting rods 320 to the rocking levers 352 by a pin connection 353, (see Figs. 3 and 5). These levers 352 are reciprocated as indifunction of holding up the printing table 239 their ends these bars 374 are connected by the spring 355 (which is anchored to a pin -moved around sufliciently to clearthe roller cated in the dotted lines in Fig. 5 after each printing operation, whereby the bars 374 and the knives 240 with them are vibrated transversely so that the knives pass through the gaps 361 and cut off the protruding ticket strips 357. The knives are kept down to the faces 359 by means of light plate springs 351 attached to the under side of the cover plate 350. The issuing mechanism may be completely locked for each case by the folding cover 373, the closed position of which is indicated by dotted lines in Fig. 3. As shown in the full lines in that figure it is lifted up to expose the press button and permit the issued tickets or-cheoks to be withdrawn from the top of the cover plate 350 on to which they are delivered as before described.

The counter shaft 277 carries for each unit a disk 278. This disk carries on one side ofit a pin and roller 279 and on the other side of it a pin and roller 362. The shaft 277 also carries a cam 358 at either end as shown in Fig. 5. These cams act against rollers 357 on the lower end .of the knife vibrating levers 352. The pressure of these cams 358 against said rollers 357 throws these levers 352 outward in the po-- sition shown in Fig. 5 against the pull of 356 in the casing) thereby drawing on the cutting rods 320 and reciprocating the bars 374 and the cut ofl knives 340. The position of the cams 358 on the shaft 277 times the movement of the knives so that the-cutting oft action occurs immediately after the completion of the printing operation, the knives being meanwhile retired as shown in Fig. 3 to permit the paper strip 221 to be projected up through the gap between the knife guide 359 and the throat bar 360. The roller 279 acts on the knuckle end 267 of the lock lever 265 and the roller 362 acts against the hollow palm 276 on the end of the trigger 275. When the parts are located as shown in Fig. 3, the roller 362 holds the trigger 275 outward and prevents it being pressed inward by the press button 6 which is carried on the end of the rod 282. This rod is pin connected at 283 to the trigger 275 and is provided with a left and right hand nut 284 for bringing the parts into exact adjustment. When the roller 362 is located in contact with the curved end 276 of the trigger 275 it is impossible to force in the trigger by pressing the button 6. That position is shown in Fig. 3. Vhen, however, the disk 278 has 362 the trigger 275 may be pressed inward as shown in Fig. 4. The rotation of the disk 27 8 brings the roller 279 once in every rotation of such disk in contact with the knuckle 267 of the lock lever 265 and it acts against such lock lever knuckle as at around which they are freely rotatable.

They make contact on the line 271, where one of them is thickened or offset to engage against the other. The effect is therefore that while the trigger may be thrown by a momentary pressure on the button 6 thereby setting the lock, and may be forced back to open position by the contact of the roller 362 with the trigger palm 27 6, the sear nose 273 will be held by the lock lever 265 and the sear will not return to the open position until the lock lever 265 is thrown by the roller 27 9,,after the printing, cutting off, and registering movements have been completed. The spring 274 connects the nose 273 of the sear with the upper end of the trigger 275. An upward movement of the trigger in obedience to the tappet action of the roller 362 against its end 276 therefore strains on the spring 274 and has the effect of drawing the sear upward with the trigger unless the nose 273 of the sear should be engaged by the notch 266 of the lock lever 265. The sear is also connected by a spring 269 to an offset of the bridle lever 257 at 261. The point of connection of the spring 269 to the sear is so related to the arbor 270 that the spring 269 exercises very little effort on the sear in opposition to the spring 274 already described. The bridle 257 is formed with a curved face 258, rearward'of which the .fulcrum pin 254 of the oscillating lever 249 reciplrocates freely as shown in Fig. 3 when t e trigger is not thrown by pressing the button 6. At itslower end the bridle lever carries a jaw plate 256 in the mouth 255 of which the fulcrum pin 254 sits when the trigger is thrown as shown in Fig. 4. When the fulcrum pin 254 is thus caught in the jaw 256, the oscillating lever instead of oscillating about the shelf 251 upon which its rear end roller 250 normally rests when it is oscillating in the idle position, oscillates about the fulcrum pin 254, whereby once in every oscillation the computer rope 7 connected to it by the shackle 252 is drawn. In the idle .position, therefore, the oscillating lever 249 is caused to move about its end 250 while in the locked position it oscillates about its other end 254.

The bridle 257 is provided with an upward extension 260 which laterally overlaps a similar extension 272 on the rear part of the sear 268, as particularly shown in Fig. 22.- Both' these parts rest on the offset pin 263 which is carried by the jockey arm 262. The

jockey arm 262, the bridle lever 257, and

the lock lever 265 all move'freely and independently of each other about the arbor 259. The jockey 262 is cross connected by means of a spring 264 with the lock lever 265. The tendency of this spring, which is made strong enough to overpower the spring 269, is to keep the jockey pin 263 hard ressed against the two horns 260 and 272 of the bridle lever and the sear respectively. The sear istherefore kept up to the position shown in Figs. 3 and 22 and the bridle lever 257 is held with its lower end free from risk of engagement with the fulcrum pin 254 of the oscillating lever 249. That is the normal position when the unit is not performing a printing operation.

When pressure is applied to the press button 6 and transmitted therefrom through the rod 282 to the trigger 275, the trigger is moved inward as soon as the roller 362 leaves its outer end 276 unsupported. The inward movement of the trigger 275 is conveyed through the contact faces 271 to the sear 268 and the nose 27 30f the sear is thus pushed into the notch266 of the lock lever 265. The spring 264 now snaps the lock lever 265 home, holding the notch 266 engaged over the nose 273 of the sear. The downward movement of the sear, in obedience to the pressure applied to the button 6, presses over the jockey pin 263, thereby leaving the back end 260 of the bridle lever 257 unsupported; thereupon the spring 269 actingl upon the horn 261 of the bridle lever tips t e bridle lever forward into the position shown in Fig. 4, in which position the fulcrum pin 254 of the oscillating lever enters the mouth 276 of said bridle lever at the commencement of the upward stroke. The

rotation of the shafts 243 and 277 continuing, the roller 279 on the disk-278 comes in contact with the knuckle 267 of the lock lever.265. The position of the roller 279 on the disk 278 is so fixed in relation to the movements of the parts that this contact only occurs upon the completion of the printing, cutting oil; and issuing operations, and while the roller 262 is acting against the palm 276'of the trigger 27 5-for the purpose of, resetting the lock and pushingout the press button 285. When it occurs, the lock lever is thrown outward as shown by-the dotted lines in Fig. 5, thereby disengaging the notch 266 from the sear nose 273, which happening, the sear is drawn upward by the spring 274 andby the pressure of the jockey pin 263 against it tail 272. The

pressure of the jockey pin at the same time moves the bridle lever 257 on its arbor 259 and throws its lower end clear of the fulcrum pin 254 of the oscillating beam 249, thus leaving the parts restored to the open position shown in 3.

While the parts are in the idle position the oscillating lever 249 acted upon by the connecting rod 245 oscillates idly up and down as shown inFig. 3. As its pin connection 246 to said connecting rod 245 is also the oint of its connection to the arm 247 whic moves about the center 248, its

rear end has a little endwise movement on the step or shelf 251, as shown in Fig. 3.

This endwise movement is of no consequence excepting in so far as it is a component movement with the vertical oscillating movement, both of which are resolved on the'pin 363 which carries the feed bar 288 so that atsaid pin 363 the traverse is radial to the.

pin 375 and no movement is applied to the feed drum 235. The pin 363 is carried on the crank arm 289 of the oscillating lever 249. The feedrod is fitted to it b a jaw 290 filled with a throat piece 291 eld by a pin or bolt as shown in Fig. 3. This construction is adopted in order to enable the feed rod 288 to be disengaged from the pin 363 readily. It is desirable to make the several elements contained in a printing case separately removable so that they may be readily replaced in the event of any breakage occurring which-puts a unit out of working order. Certain parts, such as the oscillating lever 249, the counting mechanism, and the paper feed, need not be removable, as there is no reasonable risk of any breakage or disorganization of those parts. It is also necessary not to disturb the through shafts 243, 248, 277 and 331; consequently the construction and arrangement of the parts is such that all the operative mechanism of each unit may be separated at a few points and lifted out bodily, and a corresponding unit set inserted and connected up in its place readily.

When the fulcrum pin 254 is tripped by the bridle lever 257, the pin 363 describes a curve having a horizontal component and imparts an endwise reciprocation to the feed bar 288. The feed bar is shown joggled at 292 to clear the arbor 270 of the lock. The arbor 293 of the feed drum 235 carries upon it a bell crank, the arms of which are marked 294 and 295, as shown to-the best advantage in Figs. 3' and 5. The end of the feed rod 288'is pivotally connected to the outer end of the arm 294 and on the same pin is car ment to carry the pawl 296 completely over draw leveris also proportionated so as to '20 devices respectively. To the counter it is one 'pawl face at each reciprocation. On the inner face of a flange on the edge of the feed drum a groove 235 of triangular section is out. A wedge pointed silent brake 299 hung on a pin 301 on a bracket 300 sits in this groove permitting free rotation of the feed roller in the go-ahead direction but checking it positively against any reverse movement when the feed bar is working the pawl forward to pick up another tooth of the detent. At each reciprocation, therefore, of the oscilla-ting lever 249 during the time that its fulcrum pin 254 is engaged by the bridle, the feed rod 288 makes one complete reciprocation and moves the feed drum 235 ahead by one detent space, thereby feeding up one ticket length of paper strip 221 from the spool 220. The crank 295 1s pin-connected at 303 to a rod 304 which in turn is pinconnected at 305 to the counter and printing connected by a rod 306 having a convenient breakable connection 307.to permit of its separation in order to allow of the removal of the unit without disturbing the counting mechanism. The rods 306 are respectively pin-connected to the spindle cranks 309 of the counters 310 to which they relate, the

length-of the arm 309 being so proportion ated that for each movement of the feed drum the corresponding counter will be moved ahead one notch and display the addition of one digit to its total through the sight window 311 in the case. On each of the rods 306 is carried a small sheave 313.

Similar sheaves 314 in zigzag order with the sheaves 313 are mounted on a transverse bar 319 extending the length of the case, as shown in Figs. 2, 3 and 23. A flexible cord 315 of inextensible material is connected at one end to the fixed pin 320 and at the other end to a ratchet barrel317 on the case total counter 318, and is zigzagged as shown over and under the sheaves 313 and 314, fair lead sheaves such as 316 being used if necessary. The ratchet barrel 317 must be so constructed that it will put the case total counter 318 ahead by as many units as correspond to the length of pull of the cord 315. When each unit counter 310 is operated, its correspondin sheave 313 draws on the cord 315 a de nite length thereby moving the ratchet gear 317 ahead one notch and putting the total counter 318 ahead one digit. If, however, two or more of the unit counters 310 should be in operation simultaneously, a corresponding greater length of the cord 315 is drawn on, and the ratchet gear 317 is put ahead two or more notches as the case may be, and the case total counter 318 advances accordingly by two or more digits. It is immaterial, therefore, how many of the units in a case may be in operation at the same time. A clerk in charge may, if the demand on him is heavy, operate on two or' more of the press buttons 285 at the one time. If he does so the corresponding two or more units in the case will come into action simultaneously and two or more tickets or checks will be printed or delivered simultaneously. At the same time the issues for each of the units will be registered correctly on the corresponding unitcounters and the total will also be correctly conveyed to the case counter 318.

The upward movement of the connecting rod 304 throws the crank 319321, which is carried on the arbor 320, as shown in Fig. 24. The same arbor carries a pan 324 which supports the inking pad 325, and this pan is provided with a toe piece 323 against which acts the offset pin 326 on the end of the arm,

327 of the bell crank lever 329, which is pivotally mounted on the arbor 328. The arm 321. carries the spindle 322 of the printing block 337. The printing block as shown is hexagonal, but that particular form is not essential though it has certain advantages in relation to the special construction shown as will be hereinafter described. On each of its faces a printing face of metal or rubber is mounted. The matter contained on each of these faces respectively may be different. The objectof making this difference is to enable the machine without any change of printing blocks to be adapted for printing any one of these distinct markings on a ticket or check issued therethrough and furthermore to enable the person in charge of the machine to alter the setting at a mo- 'ments notice of all the units in any particular case for the purpose of changing the marking applied thereby to tickets issued from such case. And it is of course obvious that the printing blocks need not all be setso as to print the same matter on the several tickets issued. Difi'erent matter may be provided on the plates applied to each face of the block, or if similar matter is used on the several blocks a different order of face may be presented in the case of the several units, so that No. 1 denomination of tickets will, say, be marked with No. 3 face of the block, No. 2 with No. 6 face of the block and so on according to any system or order which may be determined upon for the purposes of check-or security.

On one side of each printing block is a disk 335 in which tangential grooves 336 are cut. The shaft 331 carries for each unit a disk 3 2 which has on'one side of it an offset lpin 33 adapted to slide in the grooves 336. On the other side of it it has two offset pins 333 and 334 which engage the underside of the bell crank lever 329 for a purpose hereinafter to be described. A, spring 340 connects the lever 329 and the pan 324. As normally the lever 329 rests on the hub of the disk 332, the pan 324 is drawn upward by means of saidspring 340 until the toe 323 rests against the oifset pin 326 on the'crank arm 327. The ink pan is therefore capable of moving downward against the resilient [lift of the spring 340 so that when the ink 319 321 about its arbor 320, thereby lifting the printing block bodily as shown in Fig. 24 and carrying it across and pressing it against the paper strip which rests on the printing table 239, causing it to print the paper lying on such table, as shown in Fig. 4. The table 239 as before described is blanketed or rubber faced to facilitate the making of a clear impression and it is capamally the ble of receding a little against the pressure of the spring 347. Efficient clear printing is thus obtained. The lever 329 carries an offset pin 330 adapted to slide in the grooves 336. Those grooves are therefore engageable alternately by the'pin 338 on the disk 332 and by the offset pin 330 on the lever 329. When the printing blocks are lying on the ink pad as shown in Fig. 5, the grooves 336 are engaged only by the pin 330, the pin 338 being then retired'as shown in Fig. 5. The pin 330 being a fixed point during the printlng operation-has the effect of turning the printing block as it is advanced, so that its inked face is moved around to the front and brought up square against the paper to be printed. In the reverse movement in which the printing block is retired, the pin 330 retaining its control of the block by still sliding in one of the grooves 336, brings that face of the block which has just effected the printing operation over by turning the block and resets it on the ink pad 325. At each movement, therefore, the printing block is set down resiliently on the ink pad and is inked sufficiently, and it is lifted therefrom, turned around through an angle of90 or thereabout and brought up against the paper strip which is pressed against it by the elastic packing formed by the covering of the ink table and by the spring support 347 of the ink table.

When-it is required to change the printing faces of'the blocks 337, the turning of i the shaft 331, carrying with it the several disks 332, effects the necessary movement in all the units contained in the case. N0r pin 338 stands in the position shown in Fig. 5. By rotating the disk 332 by the clockwise'movement of the shaft 331,

' the pin 338 is brought around and caused to enter one of the tangential grooves 336. At the sametime the pins 333 and 334 on the other side of the disk 332 take against the under side of the lever 339 and raise it,

thereby lifting its pin 330 out of the groove 336 in the printing block which it had v previously engaged. The rotation of the shaft 331 continuing, the printing block is rotated on its spindle 322 through a portion of a turn. When the pin 338 is about to lift out of the end of the slot 336 which it has engaged, the pin 334 is allowing the lever329 to drop again, and just before the exit of the pin 338, the pin 330 drops into the next groove 336, the roller being thus turned through one-sixth of a rotation. Another complete turn of the shaft 331 will have the effect of turning the printing block 337 through another one-sixth of a rotation and presenting its successive face, and so on, the pins 338 and 330 successively engaging the grooves 336, the former for the purpose of turning the block to a new position and the latter for the purpose of acting as a guide to keep the block working in the position at which it is set. This upward movement of the lever 329 has the effect of throwing its crank end 327 and the pin 326 thereon against the toe 323 of the ink pan carrier so that during the turning movement of the printing block the ink pad is retired as shown in Fig. 24 so as not to interfere with the movements of the other parts already described.

The computing and totaling devices receive primary motion from the ropes 7. Each printing unit inia case is connected by one of these ropes 7 to a unit in one of the group computers. The group computers each respectively integrate the total movements relating to similar checks or tickets issued out of any number of separate cases. Thus an installation might comprise, as indicated in Fig. 1, four -cases each set up to issue four different kinds of tickets. WVhether the number of cases be four, or more or less than four, all the ropes, representing white tickets for instance, issued from No. 1 unit in each case are led over fair lead pulleys each to an element in the No. 1 computer. This computer, therefore, contains as many elements as there are printing elements in the associated cases for printing No. lseries, or white tickets. Similarly No. 2 computer is made up of a number of elements corresponding to the number of red, or No.2 series of tickets; and so on through the series of all the different denominations of tickets provided for. The whole installation is designed upon a unit system, that is to say, that a case consists of a number of similar printing elements one for every separate kind of ticket-to be issued from such case, and each computer contains a number of elements all similar in construction, one element for each and every separate printing element the movements of which are required to be contained in the 

